A graph semantic based approach for modeling of enterprise cloud bus system dynamics

Cloud computing refers to a distributive model that deliver web services over the network dynamically so that the consumers can access the services from anywhere on demand basis depending on the Quality of Service (QoS) requirements. Nowadays, Agent based Cloud computing technology plays a vital role in modeling of roles, collaborations and interactions among the cloud components and their services. Enterprise Cloud Bus System (ECBS) is such an Agent-based Cloud computing model that helps to deliver services in a virtualized manner by optimizing the QoS parameters. This model also helps the enterprise software applications to be more reliable and robust in recent days. Design and Modeling of Multi-Agent based Cloud System dynamics has become a challenging domain in recent trends. In our previous work, we have modeled the system dynamics using UML 2.0 which focus on interactions and collaborations of cloud bus components. But, the interactions and collaborations of cloud bus components using UML extension cannot be considered as semantically rich conceptual and formalized model for behavioral analysis and design of such system. To conceptualize the dynamic facets of ECBS this paper deals with modeling of roles, interactions and collaborations of Multi-agent based Inter-cloud bus components. In this paper, a graph semantic based approach called Multi-Agent Cloud Bus Architecture Graph (MACBAG) has been proposed for effective modeling and design of dynamic aspects of such MAS based Inter-cloud architecture.